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Java example source code file (mlib_ImageConvKernelConvert.c)

This example Java source code file (mlib_ImageConvKernelConvert.c) is included in the alvinalexander.com "Java Source Code Warehouse" project. The intent of this project is to help you "Learn Java by Example" TM.

Learn more about this Java project at its project page.

Java - Java tags/keywords

clamp_s32, mlib_bit, mlib_byte, mlib_failure, mlib_int, mlib_short, mlib_success, mlib_ushort, mmx, null

The mlib_ImageConvKernelConvert.c Java example source code

/*
 * Copyright (c) 2003, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.  Oracle designates this
 * particular file as subject to the "Classpath" exception as provided
 * by Oracle in the LICENSE file that accompanied this code.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
 * or visit www.oracle.com if you need additional information or have any
 * questions.
 */


/*
 * FUNCTION
 *      mlib_ImageConvKernelConvert - Convert convolution kernel from
 *                                    floating point version to integer
 *                                    version.
 *
 * SYNOPSIS
 *      mlib_status mlib_ImageConvKernelConvert(mlib_s32       *ikernel,
 *                                              mlib_s32       *iscale,
 *                                              const mlib_d64 *fkernel,
 *                                              mlib_s32       m,
 *                                              mlib_s32       n,
 *                                              mlib_type      type);
 *
 * ARGUMENT
 *      ikernel  integer kernel
 *      iscale   scaling factor of the integer kernel
 *      fkernel  floating-point kernel
 *      m        width of the convolution kernel
 *      n        height of the convolution kernel
 *      type     image type
 *
 * DESCRIPTION
 *      Convert a floating point convolution kernel to integer kernel
 *      with scaling factor. The result integer kernel and scaling factor
 *      can be used in convolution functions directly without overflow.
 *
 * RESTRICTION
 *      The type can be MLIB_BYTE, MLIB_SHORT, MLIB_USHORT or MLIB_INT.
 */

#include <stdlib.h>
#include "mlib_image.h"
#include "mlib_SysMath.h"
#include "mlib_ImageConv.h"

/***************************************************************/
#ifdef __sparc

#define CLAMP_S32(dst, src)                                     \
  dst = (mlib_s32)(src)

#else

#define CLAMP_S32(dst, src) {                                   \
  mlib_d64 s0 = (mlib_d64)(src);                                \
  if (s0 > (mlib_d64)MLIB_S32_MAX) s0 = (mlib_d64)MLIB_S32_MAX; \
  if (s0 < (mlib_d64)MLIB_S32_MIN) s0 = (mlib_d64)MLIB_S32_MIN; \
  dst = (mlib_s32)s0;                                           \
}

#endif /* __sparc */

/***************************************************************/
mlib_status mlib_ImageConvKernelConvert(mlib_s32       *ikernel,
                                        mlib_s32       *iscale,
                                        const mlib_d64 *fkernel,
                                        mlib_s32       m,
                                        mlib_s32       n,
                                        mlib_type      type)
{
  mlib_d64 sum_pos, sum_neg, sum, norm, max, f;
  mlib_s32 isum_pos, isum_neg, isum, test;
  mlib_s32 i, scale, scale1, chk_flag;

  if (ikernel == NULL || iscale == NULL || fkernel == NULL || m < 1 || n < 1) {
    return MLIB_FAILURE;
  }

  if ((type == MLIB_BYTE) || (type == MLIB_SHORT) || (type == MLIB_USHORT)) {

    if (type != MLIB_SHORT) {               /* MLIB_BYTE, MLIB_USHORT */
      sum_pos = 0;
      sum_neg = 0;

      for (i = 0; i < m * n; i++) {
        if (fkernel[i] > 0)
          sum_pos += fkernel[i];
        else
          sum_neg -= fkernel[i];
      }

      sum = (sum_pos > sum_neg) ? sum_pos : sum_neg;
      scale = mlib_ilogb(sum);
      scale++;

      scale = 31 - scale;
    }
    else {                                  /* MLIB_SHORT */
      sum = 0;
      max = 0;

      for (i = 0; i < m * n; i++) {
        f = mlib_fabs(fkernel[i]);
        sum += f;
        max = (max > f) ? max : f;
      }

      scale1 = mlib_ilogb(max) + 1;
      scale = mlib_ilogb(sum);
      scale = (scale > scale1) ? scale : scale1;
      scale++;

      scale = 32 - scale;
    }

    if (scale <= 16)
      return MLIB_FAILURE;
    if (scale > 31)
      scale = 31;

    *iscale = scale;

    chk_flag = mlib_ImageConvVersion(m, n, scale, type);

    if (!chk_flag) {
      norm = (1u << scale);
      for (i = 0; i < m * n; i++) {
        CLAMP_S32(ikernel[i], fkernel[i] * norm);
      }

      return MLIB_SUCCESS;
    }

    /* try to round coefficients */
#ifdef __sparc
    scale1 = 16;                            /* shift of coefficients is 16 */
#else

    if (chk_flag == 3)
      scale1 = 16;                          /* MMX */
    else
      scale1 = (type == MLIB_BYTE) ? 8 : 16;
#endif /* __sparc */
    norm = (1u << (scale - scale1));

    for (i = 0; i < m * n; i++) {
      if (fkernel[i] > 0)
        ikernel[i] = (mlib_s32) (fkernel[i] * norm + 0.5);
      else
        ikernel[i] = (mlib_s32) (fkernel[i] * norm - 0.5);
    }

    isum_pos = 0;
    isum_neg = 0;
    test = 0;

    for (i = 0; i < m * n; i++) {
      if (ikernel[i] > 0)
        isum_pos += ikernel[i];
      else
        isum_neg -= ikernel[i];
    }

    if (type == MLIB_BYTE || type == MLIB_USHORT) {
      isum = (isum_pos > isum_neg) ? isum_pos : isum_neg;

      if (isum >= (1 << (31 - scale1)))
        test = 1;
    }
    else {
      isum = isum_pos + isum_neg;

      if (isum >= (1 << (32 - scale1)))
        test = 1;
      for (i = 0; i < m * n; i++) {
        if (abs(ikernel[i]) >= (1 << (31 - scale1)))
          test = 1;
      }
    }

    if (test == 1) {                        /* rounding according scale1 cause overflow, truncate instead of round */
      for (i = 0; i < m * n; i++)
        ikernel[i] = (mlib_s32) (fkernel[i] * norm) << scale1;
    }
    else {                                  /* rounding is Ok */
      for (i = 0; i < m * n; i++)
        ikernel[i] = ikernel[i] << scale1;
    }

    return MLIB_SUCCESS;
  }
  else if ((type == MLIB_INT) || (type == MLIB_BIT)) {
    max = 0;

    for (i = 0; i < m * n; i++) {
      f = mlib_fabs(fkernel[i]);
      max = (max > f) ? max : f;
    }

    scale = mlib_ilogb(max);

    if (scale > 29)
      return MLIB_FAILURE;

    if (scale < -100)
      scale = -100;

    *iscale = 29 - scale;
    scale = 29 - scale;

    norm = 1.0;
    while (scale > 30) {
      norm *= (1 << 30);
      scale -= 30;
    }

    norm *= (1 << scale);

    for (i = 0; i < m * n; i++) {
      if (fkernel[i] > 0) {
        CLAMP_S32(ikernel[i], fkernel[i] * norm + 0.5);
      }
      else {
        CLAMP_S32(ikernel[i], fkernel[i] * norm - 0.5);
      }
    }

    return MLIB_SUCCESS;
  }
  else {
    return MLIB_FAILURE;
  }
}

/***************************************************************/

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